Researchers have taken the wraps off “Symbiote,” what they call a “nearly-impossible-to-detect” Linux malware that’s targeting the financial sector.
Cybersecurity researchers have taken the wraps off what they call a “nearly-impossible-to-detect” Linux malware that could be weaponized to backdoor infected systems.
Dubbed Symbiote by threat intelligence firms BlackBerry and Intezer, the stealthy malware is so named for its ability to conceal itself within running processes and network traffic and drain a victim’s resources like a parasite.
The operators behind Symbiote are believed to have commenced development on the malware in November 2021, with the threat actor predominantly using it to target the financial sector in Latin America, including banks like Banco do Brasil and Caixa, based on the domain names used.
Cybercriminals are impersonating popular crypto platforms such as Binance, Celo, and Trust Wallet with spoofed emails and fake login pages in an attempt to steal login details and deceptively transfer virtual funds.
“As cryptocurrency and non-fungible tokens (NFTs) become more mainstream, and capture headlines for their volatility, there is a greater likelihood of more individuals falling victim to fraud attempting to exploit people for digital currencies,” Proofpoint said in a new report.
“The rise and proliferation of cryptocurrency has also provided attackers with a new method of financial extraction.”
“When the Human Genome Project began in 1990, it had a projected budget of $3 billion. […] Now, one company claims to have achieved the major milestone of whole genome sequencing for just $100.”
Ultima Genomics, a biotech company based in California, has emerged from stealth mode with a new high-throughput, low-cost sequencing platform that it claims can deliver a $100 genome.
When the Human Genome Project began in 1990, it had a projected budget of $3 billion. Some researchers believed it would take centuries to map all 20,000+ genes and to determine the sequence of chemical base pairs making up DNA, though in the end it took 13 years. Since then, genome sequencing has undergone technology and cost improvements at a rate faster than Moore’s Law (a long-term trend in the computer industry that involves a doubling of performance every two years). What used to require billions of dollars and many years of work is now several orders of magnitude cheaper and possible in a matter of hours.
Companies like 23andMe and Ancestry.com have been offering DNA test kits at the consumer level. These can generate reports relating to a customer’s ancestry and genetic predispositions to health-related issues. While most people have opted for tests based on partial (i.e. incomplete) sequencing, the costs are now becoming so low that whole genome sequencing may soon be affordable. Veritas Genetics made headlines in 2016 by breaking the $1,000 barrier and in 2021 the price fell to $562.
The probe will wait in space for a yet unknown, but very exciting, object to arrive.
Europe’s Comet Interceptor probe will lurk in space, waiting for a pristine interstellar comet to zoom by.
University of Queensland scientists have cracked a problem that’s frustrated chemists and physicists for years, potentially leading to a new age of powerful, efficient, and environmentally friendly technologies.
Using quantum mechanics, Professor Ben Powell from UQ’s School of Mathematics and Physics has discovered a “recipe” which allows molecular switches to work at room temperature.
“Switches are materials that can shift between two or more states, such as on and off or 0 and 1, and are the basis of all digital technologies,” Professor Powell said. “This discovery paves the way for smaller and more powerful and energy efficient technologies. You can expect batteries will last longer and computers to run faster.”
Roswell Biotechnologies wants you to believe its new chip will revolutionize the detection of viruses, DNA, and more. But it still has to prove itself.
The agency will release a report on UAPs sometime next year after a nine-month investigation.
NASA will fund a “no more than $100,000 study” looking at what astrophysical data exists with unexplained origins led by astrophysicist David Spergel.
